/*
An Botan example application showing how to use the pop and prepend functions
of Pipe. Based on the md5 example. It's output should always be identical to
such.

Written by Jack Lloyd (lloyd@randombit.net), Feb 3, 2002

This file is in the public domain
*/

#include <iostream>
#include <fstream>
#include <botan/botan.h>

int main(int argc, char* argv[])
   {
   if(argc < 2)
      {
      std::cout << "Usage: " << argv[0] << " <filenames>" << std::endl;
      return 1;
      }

   Botan::LibraryInitializer init;

   // this is a pretty vacuous example, but it's useful as a test
   Botan::Pipe pipe;

   // CPS == Current Pipe Status, ie what Filters are set up

   pipe.prepend(new Botan::Hash_Filter("MD5"));
   // CPS: MD5

   pipe.prepend(new Botan::Hash_Filter("RIPEMD-160"));
   // CPS: RIPEMD-160 | MD5

   pipe.prepend(new Botan::Chain(
                   new Botan::Hash_Filter("RIPEMD-160"),
                   new Botan::Hash_Filter("RIPEMD-160")));
  // CPS: (RIPEMD-160 | RIPEMD-160) | RIPEMD-160 | MD5

   pipe.pop(); // will pop everything inside the Chain as well as Chain itself
   // CPS: RIPEMD-160 | MD5

   pipe.pop(); // will get rid of the RIPEMD-160 Hash_Filter
   // CPS: MD5

   pipe.prepend(new Botan::Hash_Filter("SHA-1"));
   // CPS: SHA-1 | MD5

   pipe.append(new Botan::Hex_Encoder);
   // CPS: SHA-1 | MD5 | Hex_Encoder

   pipe.prepend(new Botan::Hash_Filter("SHA-1"));
   // CPS: SHA-1 | SHA-1 | MD5 | Hex_Encoder

   pipe.pop(); // Get rid of the Hash_Filter(SHA-1)
   pipe.pop(); // Get rid of the other Hash_Filter(SHA-1)
   // CPS: MD5 | Hex_Encoder
       // The Hex_Encoder is safe because it is at the end of the Pipe,
       // and pop() pulls off the Filter that is at the start.

   pipe.prepend(new Botan::Hash_Filter("RIPEMD-160"));
   // CPS: RIPEMD-160 | MD5 | Hex_Encoder

   pipe.pop(); // Get rid of that last prepended Hash_Filter(RIPEMD-160)
   // CPS: MD5 | Hex_Encoder

   int skipped = 0;
   for(int j = 1; argv[j] != 0; j++)
      {
      std::ifstream file(argv[j]);
      if(!file)
         {
         std::cout << "ERROR: could not open " << argv[j] << std::endl;
         skipped++;
         continue;
         }
      pipe.start_msg();
      file >> pipe;
      pipe.end_msg();
      file.close();
      pipe.set_default_msg(j-1-skipped);
      std::cout << pipe << "  " << argv[j] << std::endl;
      }
   return 0;
   }
